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Location and Coverage Analysis of Bike- Sharing Stations in University Campus

Author

Listed:
  • Mete Suleyman

    (Department of Industrial Engineering, Munzur University,Tunceli, Turkey)

  • Cil Zeynel Abidin

    (Department of Industrial Engineering, Izmir Democracy University,Izmir, Turkey)

  • Özceylan Eren

    (Department of Industrial Engineering, Gaziantep University,Gaziantep, Turkey)

Abstract

Background: Bike-sharing programmes have become popular in a large number of cities in order to facilitate bicycle use. Determining the location of bike sharing stations is vital to success of these programmes. Objectives: In this paper, a case study is applied to the Gaziantep University campus in order to find possible locations of the stations for users (students). The purpose is to minimize the total walking distance. Methods/Approach: Set and maximal covering mathematical models are considered to decide on coverage capability of determined 20 demand points and 20 potential bike stations. Then, the mathematical models of P-center and P-median are used to build possible stations and to allocate demand points to the opened stations. Finally, an undesirable facility location model is used to find the bike stations, which have the maximum distance from demand nodes, and to eliminate them. Results: In computational results, it is clearly seen that the proposed approaches set the potential bike station covering all demand points. They also provide different solutions for the campus planners. Conclusions: The methodology outlined in this study can provide university administrators with a useful insight into locations of stations, and in this way, it contributes significantly to future planning of bike-sharing systems.

Suggested Citation

  • Mete Suleyman & Cil Zeynel Abidin & Özceylan Eren, 2018. "Location and Coverage Analysis of Bike- Sharing Stations in University Campus," Business Systems Research, Sciendo, vol. 9(2), pages 80-95, July.
    • Handle: RePEc:bit:bsrysr:v:9:y:2018:i:2:p:80-95:n:8
    DOI: 10.2478/bsrj-2018-0021
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    References listed on IDEAS

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